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Applied physiology

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Applied physiology II ... physiology - the missing link Upper airway The nose: Clears ... Cricoid and acute surgery Epiglottis Tracheostomy Anatomy ... – PowerPoint PPT presentation

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Title: Applied physiology


1
Applied physiology IIRespiration, oxygen
therapy Molnár ZsoltAITI
2
Anatomy, physiology - the missing link
3
Upper airway
  • The nose
  • Clears
  • Heats (32-36)
  • humidifies (90)

4
The larynx
  • Which is the narrowest part?

5
The larynx
  • Which is the narrowest part?
  • Cricoid and acute surgery

6
The larynx
  • Which is the narrowest part?
  • Cricoid and acute surgery
  • Epiglottis
  • Tracheostomy

7
Anatomy - thorax
  • Breathing
  • Inspiration active
  • Expiration passive
  • End expiratory pause
  • Intrapleural pressure
  • Normal value 2-3 cmH2O
  • Coughing, sneezing gt 60 cmH2O
  • Peak inspiratory flow (PIF)
  • PIF at rest 20-30 l/min

8
Gas exchange
  • Function of breathing
  • Oxigenation
  • CO2-elimination
  • Acute respiratory failure
  • Type I hypoxic
  • Type II hypercapnic
  • Mixed or global

9
Alveolar oxygenation
PiO2 150 mmHg
PAO2FiO2 x (PB-PH2O) PaCO2/R
PvO240 mmHg
PAO2
120 mmHg
PA-aO2 ? 20 mmHg
PaO2100 mmHg
Molnár 99
10
Venous admixture
PvO240 mmHg
120
PaO2 (12040)/2 80 mmHg
PA-aO2 40 mmHg
Molnár 99
11
Closing capacity (CC)
  • Normal lungs
  • CC in ERV
  • FRCgtCC
  • ALI/ARDS
  • CC in VT
  • FRCltCC

VT
ERV
FRC
CC
RV
CC
12
Atelectasis and venous admixture
O2
PvO240 mmHg
120 mmHg
PaO2 (12040)/2 80 mmHg
Molnár 99
13
Atelectasis and venous admixture
O2
PvO240 mmHg
180 Hgmm
PaO2 (12040)/2 80 mmHg instead PaO2
(18040)/2 120 mmHg
Molnár 99
14
Degree of venous admixture
0
5
10
400
15
20
  • Iso-shunt diagram
  • Nunn JF. Appl. Resp Physiol., 1993

300
25
PaO2 Hgmm
200
30
100
50
0,2
0,6
1,0
FiO2
Molnár 99
15
Oxygen therapy
16
O2 therapy - indications
  • Respiratory distress (resp. rategt24/min or
    laboured breathing)
  • Asthmatic attack
  • Hypotension (RRsyst lt 100 mmHg)
  • Signs of abnormal heart function
  • Metabolikc acidosis (act HCO3 lt 18 mmol/l)
  • Suspected AMI
  • Severe trauma and/or severe blood loss
  • Sepsis
  • Altered level of consciousness
  • Drug overdose with confusion
  • Smoke, CO, toxic gas inhalation
  • Complications during labour
  • Transport of the critically ill
  • Every postoperative condition

Molnár 99
17
Variable performance devices
18
Features
  • Breathing cycle
  • Inspiration expiration end expiratory pause
  • Peak inspiratory flow (PIF)
  • At rest 20-30 l/min
  • Forced inspiration gt60 l/min
  • Variable performance devices
  • Fresh gas flow lt PIF
  • Performance depends on patients breathing
    pattern
  • Types
  • Nasal specs - Face mask Mask with reservoire
    balloon

Molnár 99
19
O2-rotameter
  • 3 O2 ports/bed
  • Flow0-16 L/min

Molnár 99
20
Nasal specs
  • FiO2 30
  • Flow 2-6 L/min
  • Comfortable, cheap
  • Dries nasal mucous tissues

Molnár 99
21
Face mask
  • Increases dead space
  • Flow 5-10 L/min
  • FiO2 50
  • Humidification unsolved

Molnár 99
22
Mask with a reservoire
  • Flow 5-15 L/min
  • Balloon
  • FiO2 80
  • Humidification unsolved

Molnár 99
23
Oxygen therapy
Fix performance devices
24
Features
  • Independent from patients breathing pattern
  • Reason
  • High fresh gas flow gt PIF
  • Types
  • Venturi-masks
  • Anaesthetic breathing curcuits Mapleson-systems
  • Respirators

Molnár 99
25
Daniel Bernoulli
  • Bernoullis principle
  • increase in the speed of the fluid occurs
    simultaneously with a decrease in pressure or a
    decrease in the fluid's potential energy

1700-1782
Molnár 99
1738
26
Giovanni Battista Venturi
  • Venturis principle and injector
  • fluid velocity must increase through the
    constriction to satisfy the equation of
    continuity, the gain in kinetic energy is
    balanced by a drop in pressure or a pressure
    gradient force

1746-1822
Molnár 99
27
Giovanni Battista Venturi
  • Venturis principle and injector
  • fluid velocity must increase through the
    constriction to satisfy the equation of
    continuity, the gain in kinetic energy is
    balanced by a drop in pressure or a pressure
    gradient force

1746-1822
8 LPM 50 O2
1008 X21 (8X)50
4 0.3X 13 X Fresh gas
flow 13 8 21 LPM
Molnár 99
28
From Venturi to Vinturi
  • 21st century

1746-1822
Molnár 99
29
Venturis injector humidification
O2
Air
  • 20-50 FiO2
  • 60-30 L/min
  • Bernoulli effect
  • Humidification
  • Warm water container
  • Heating wire

Molnár 99
30
Side effects of oxygen therapy
  • Insignificant comparing to the benefits
  • Claustrophoby
  • Dry mucous membranes
  • Respiratory depression (COPD)
  • Hyperoxia

Molnár 99
31
Monitoring
32
Pulsoximetry
Pletismograph and Oximeter
Molnár 99
33
The pulsoximeter
  • Continuous
  • Doesnt replace blood gas tests

Molnár 99
34
The pulsoximeter
  • Reliability
  • SaO2 70-100 (inaccuracy lt 5)
  • SpO2 gt 94 SaO2gt90
  • Van de Louw A et al. Intensive Care Med 2001 27
    1606
  • Reaction time
  • 5-8s
  • Desaturation reaction time
  • Ear probes 7.2-19.8
  • Finger probes 19.5-35.1
  • On toes 41-72.6
  • Bishop ML. Anesthessiol Review 1994 256 1017

Molnár 99
35
First move in the care of a critically illGive
oxygen!
Motto
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